Author: Brajesh K. Singh

 

Publisher: U.S., Wiley & Sons
Contributors: Hawkesbury Institute for the Environment (Host institution)
Content Provider: University of Western Sydney (UWS): Research Direct
 
Abstract
 
The manipulation of plant and environmental microbiomes is becoming an increasingly popular tool to sustainably increase farm productivity for food and nutrient security (Singh and Trivedi, 2017). There are multiple drivers for the increasing focus on microbiome tools in agriculture, including the need for a substantial increase in food production from shrinking arable lands. For example, an increase of 70% in farm productivity is needed by 2050 to meet demand of the continually growing global population. Continuous land degradation means that farm productivity increases need to be met from 8 to 20% less arable land. In addition, climate change, the increasing frequency of extreme weather events, the high cost and unreliable supply of phosphorus fertilizers, combined with the structural decline in soil fertility means better approaches to utilize available natural resources, are considered a priority. Harnessing the plant and soil microbiome is increasingly being recognized as one such approach. Environmental (e.g. minimizing water and air pollution) and social (e.g. consumer’s demand of chemical-free food and environment preservation) pressures are other key drivers that provide the impetus towards green and renewable technologies for sustainable farming. 
 
© 2017 The Authors. Microbial Biotechnology published by John Wiley & Sons Ltd and Society for Applied Microbiology. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Illustration Photo: Seedlings (Public Domain from Pixabay.com)

Comments

No comments to display.